RU2072580C1 - Device for application of graphite onto cathode-ray tube - Google Patents

Abstract

FIELD: electronic engineering. SUBSTANCE: device for application of graphite onto cathode-ray tube uses a cap with an aperture and sprayers; the device has the first chamber with a sprayer in its upper part, second chamber conjugate to the first chamber and furnished with a block for producing a water curtain and a block for removal of dust, and a conveyer used to feed the cathode-ray tubes with an elevator located coaxially with the cap with an aperture. EFFECT: enhanced convenience in use. 4 cl, 2 dwg

Description

 The present invention relates to a device for applying graphite to a cathode ray tube, in particular, to a device for applying graphite to the outer surface of a cathode ray tube, which increases the efficiency of deposition.

 Typically, a cathode ray tube is provided with a capacitor to eliminate the ripple of the high voltage supplied from the horizontal output transformer. The capacitor is composed of conductive layers, in particular graphite layers deposited on the inner and outer surfaces of the cathode ray tube funnel.

 The graphite layer on the inner surface of the funnel, which constitutes the cathode ray tube capacitor, is formed before the funnel is connected to the panel on which the screen is formed, and the graphite layer on the outer surface of the funnel is applied during the final operation of the cathode ray tube production.

 The coating of surfaces, cathode ray tubes, as a rule, consists in the deposition of graphite on the inner and outer surfaces of the funnel with a spray gun. As shown in figure 1, graphite should stick only to the open area through the aperture 1 of the cap 2 when spraying graphite mass, using a spray gun 3 at a time when the funnel 4 of the cathode ray tube 5 is covered.

 Graphite spraying with the conventional device described above is very ineffective due to its dependence on manual work, while the working environment of the factory is deteriorating because the graphite sprayed by the spray gun partially penetrates into the air.

 Therefore, the technical task of the present invention is the provision of a device for applying graphite to a cathode ray tube, which improves the efficiency of the coating by automating the deposition of a graphite layer on a cathode ray tube while preventing pollution of the working environment caused by graphite.

 To achieve the technical task, a device for applying graphite to a cathode ray tube in accordance with the invention comprises a cap with an aperture configured to be mounted on the cathode ray tube and nozzles, a first chamber, in the upper part of which there are mounted nozzles with the possibility of circular movement coaxially with the cap with aperture, a second chamber associated with the first and provided with a unit for creating a water curtain and a dust removal unit, a conveyor for feeding cathode ray tubes with a lift, size ennym cowl coaxially with the aperture, mounted on a base bottom portion of the first chamber.

 Figure 1 shows a known device for applying graphite to a cathode ray tube (described above); figure 2 is a section of a device for applying graphite to a cathode ray tube in accordance with the present invention.

 Referring to FIG. 2, a device for applying graphite to a cathode ray tube according to the present invention comprises a first chamber 6, in the upper part of which there are mounted sprays. The sprayers 7 are fixed on vertically suspended rods 8 to the rotor 9, which is rotated by an electric motor 10 mounted on the roof 11 with the possibility of circular movement coaxially to the cap 12 having an aperture 13.

 The rotor 9 is attached to the upper inner portion of the first chamber. The shape of the cap corresponds to the shape of the electron beam tube. At the edge of the upper portion of the inner wall 14 of the first chamber 6, a reservoir 15 is provided with dust-absorbing water for supplying dust-absorbing water to the wall 14, and a device for supplying dust-absorbing water (not shown) is attached to the reservoir 15. In addition, an aperture 16 is provided in the lower portion wall 14, defining a barrier 17 with a predetermined height, so that dust-absorbing water running down the wall 14, accumulates respectively on the bottom 18 of the first chamber 6.

 The second chamber 19, coupled with the first chamber 6, contains a dust removal unit 20, and a unit 21 for creating a water curtain adjacent to the aperture 16. The aperture 16 provided in a lower portion of the first chamber 6 communicates with the dust removal unit 20, which has a suction pipe 22 with multi-fold filter 23.

 A barrier 24 of a predetermined height is provided at the bottom of the second chamber 19 so that solid material, or graphite contained in the dust-absorbing water, precipitates in the second chamber 19, overflowing in stages.

 The device also includes a conveyor 25 for feeding the cathode ray tubes, and a lift 26 for lifting them, placed coaxially to the cap 12 with an aperture mounted by the base in the bottom of the first chamber. A support plate 27 for supporting the transport plate 28 onto which the cathode ray tube is loaded is connected to the upper portion of the elevator 26. The elevator 26 is controlled by a regulator (not shown) so as to work when the cathode ray tube arrives directly under the hood 12 on the transport plate 28.

 The regulator has a function to detect whether the cathode ray tube is loaded on the transport plate 28 and whether the transport plate 28 is in a normal position, and a control function to prevent the transport plate 28 from being moved by a special locking device (not shown) when the transport plate 28 arrived in a normal position.

 The operation of the device for applying graphite to a cathode ray tube of the present invention is as follows. First, when the cathode ray tube loaded onto the transport plate 28 arrives directly under the cap 12 provided in the bottom 18 of the first chamber 6 by means of a conveyor 25, the presence of the cathode ray tube on the transport plate 28 is sensed by the controller. At this time, in the case when the cathode ray tube is not loaded on the transport plate 28, the elevator 26 for raising and lowering the cathode ray tube does not work, the transport plate 28 is transferred to the next process using the conveyor 25.

 When the cathode ray tube loaded onto the transport plate 28 is perceived by the controller, the transport plate 28 stops in the upper portion of the raising plate 27 with a stopper (not shown) provided on the longitudinal beam of the conveyor 25. This time, the elevator 26 controlled by the regulator lifts the cathode ray tube loaded onto the transport plate 28 to fit it inside the cap 12 formed at the bottom of the first chamber 6. When the cathode ray tube enters the cap 12, the electric motor 10 is installed on the roof 11 of the first chamber 6 works, and, accordingly, the nozzles 7 installed in the first chamber 6 are rotated by a rotor 9, rotated by an electric motor 10. The graphite mass is then sprayed from the nozzles 7, so that the cathode ray tube is coated according to a predetermined pattern through the aperture 13 cap 12. Moreover, when graphite is applied, the dust removal unit 20 works, and graphite dust adheres to the inner wall 14, which is part of the graphite dust dispersed in the first chamber 6 during spraying, is washed down to the bottom 18 of the first chamber 6 dust-absorbing water supplied from the reservoir 15 provided on the upper section of the inner wall 14 of the first chamber 6 and is removed into the second chamber 15 (see figure 2). Among the graphite dust, dispersed dust and the first chamber 6, most of the graphite passing through the aperture 16 in the lower portion of the first chamber 6 is delayed and absorbed by the water curtain created by the block 21 to create a water curtain to divert the graphite into the second chamber 19. The remaining graphite is not yet absorbed in the process, is discharged by a suction pipe 22 provided with a multi-fold filter 23 in the aperture.

 Since the present invention described above can automatically perform a graphite coating for a cathode ray tube in series, productivity is noticeably increased. And most of the graphite dust dispersed in the air from all the graphite sprayed onto the cathode ray tube can be absorbed and removed from the confined space, and this can prevent the pollution of the working environment caused by graphite dust.

Claims (4)

 1. A device for applying graphite to a cathode ray tube, comprising a cap with an aperture, configured to be mounted on a cathode ray tube, and nozzles, characterized in that the first chamber is introduced, in the upper part of which there are mounted nozzles with the possibility of circular movement coaxially with a cap with an aperture, a second chamber, paired with the first and equipped with a unit for creating a water curtain and a dust removal unit, a conveyor for supplying cathode ray tubes with a lift coaxial with the cap with a erturoy set base on the bottom portion of the first chamber.  2. The device according to claim 1, characterized in that it contains a rotor connected to the engine and attached to the upper inner portion of the first chamber.  3. The device according to claim 1, characterized in that the dust removal unit comprises a suction pipe for forced suction or removal of graphite dust remaining in the interior of the housing.  4. The device according to claim 1, characterized in that the unit for producing a water curtain is a dust-absorbing water device for producing a water curtain between the body and the suction pipe.

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